MX2008007134A - A voip communication system. - Google Patents

Abstract

An Internet-based system provides substantially instantaneous communication between two devices for exchanging voice and multimedia signals. The system includes ISP gateways with unique IDs that service a plurality of devices with unique telephone numbers. The system further includes a directory which correlates the devices with ISP gateways. More specifically, the directory includes a RELATIVE records/words/cells in a RANDOM ACCESS TABLE (RRAT) with each entry being identified by a record number, which in this case corresponds to the telephone numbers (as they are or in reverse). The entry relates directly or indirectly the telephone number with the respective ISP gateway. Communication is established by having the ISP gateway of the calling device looking up the ISP gateway of the called device in the directory using the telephone number of the called device. The ISP gateway then generates a handle for the called ISP and uses the handle to establish a communication channel between two devices quickly and efficiently.

Description

A VOIP TELECOMMUNICATION SYSTEM DESCRIPTION A. Field of the Invention This invention is a VOIP (voice over IP) and VIP (video over IP) system, relating to the provision of · IP communications via the Internet. With further specialties, it is a system and a description of the supply of communications, more efficient among Internet services (ISP) such as (VOIP, VIP, etc.) B. Description of the Technique Mentioned It is noted that the provision of partial or complete communications of telephones (or videos) via the Internet are more advantageous. Still these figures are becoming increasingly excessive (large and small companies, organizations that have no expectations of profitability, federal and individual agencies), all of these have internet links where the maximum part of said network connections are manual and broadband connections. Wireless Internet connections are in the commons becoming effective means that are at least cell phones. Another advantage is that, at least at present, Internet communications are governed by less stringent regulations than telephone communications. Currently VOIP and VIP services, including Normal Old Telephone Networks (POTS) and conventional telephone carriers that are used by Internet Service Providers (ISPs), are supplied through the said companies in the communication networks of the Internet. Internet. The competition between these companies against customers is of great importance. A major obstacle to the extension of VOIP communications is that each user needs a telephone line assigned by a telephone company and a separate Internet connection independent of the user's telephone line (such as a domain or an Internet address). IP). Since there is no central directory that validates telephone lines with Internet connections, ISPs can typically establish fast Internet communications only for their own users. In other words, fast Internet communications can only be provided between two clients that have the same ISP identification.

For the rest of the connections, the ISPs have to establish hybrid communication lines whose lines include Internet connections, standard telephone lines and networks of PSTN (General Telephone Networks) and PBX (Private Network Exchanges). This type of system is explained by Patent No. 6, 069,890 of the United States. It is understood that this approach is much slower and more expensive than Internet lines. Another approach is for the ISP to sequentially interrogate the various intermediate nodes (including the counselors and the incoming networks), until a node that maintains the service for a device associated with the requested telephone number is found. Naturally, taking into account the distance present between the respective nodes, the said process can be very slow. Another problem that can be found with ISPs is that each of these has to have its own type of equipment and internal protocols; where although a line is established between two subscribers of different ISPs, the communication may not occur due to the incompatibility of the system. Several plans have been suggested to overcome these problems. Most of these plans consist of the telephone numbers and according to the IP addresses that validate the big banking data. Some of these planes are described in Patents No. 6,674,745; 6,772,210; 6,810,034 of the United States and in the Resources of the United States S / N. 2003/00024762003/0095542 and 2004/0081141. Some of the other plans include the transformation of the Telephone - LNP number, the validation of the IP address with the Domain Name, the validation of the Electronic Number - ENUM and the DUNDI that is - Universal Search Distribution - DUNDI. However, the problem with all these plans is that if the bank details contain all the subscribers' income, the period of time required to reach the appropriate IP address of a telephone number will be hindered and unacceptable for the subscribers who are used to receive almost instantaneous responses from most systems in the POTS network.

SUMMARY OF THE INVENTION Briefly, said invention is a system for the passage of one or more networks for each one device that supplies many different IP communications via the Internet having its ISP data. These devices can include many different typical devices, such as telephone sets, computers, PDA so that subscribers can create voice / video and other communication channels for other subscribers. Preferably, the system contains a central directory. The main function of the central directory is to validate the requested telephone number with the specific input system of the ISPs that service the reported device, to the requested telephone number. On the other hand, the central directory may be used for communication; The incoming ISP, to maintain the necessary information, the URL SIP and also to store the other various elements. In the central directory, it is important that each telephone number is possibly related to a relative data number, in order to use it as an entry record. These data in each entry are identified directly or indirectly, the respective entry of the ISP network, by an Internet designation such as your IP address or as an Internet SIP URL title. This configuration ensures the connection of any subscriber for a connection (VOIP, VIP, etc.) to another subscriber of any ISP, in order to execute the process quickly and effectively.

BRIEF DESCRIPTION OF THE FIGURES Figure 1. It shows in priority the VOIP systems that limit the communications between the subscribers of the ISP's specific ones. Figure 2. Demonstrates in priority the VOIP systems that communicate the connections between the subscribers of the different ISPs. Figure 3. Shows the VOIP systems built in accordance with the inventions. Figure 4. Shows the structure of the datbase used in Fig. 1 and Figure 5. It is a diagram showing the spill of the system of Fig. 3.

DESCRIPTION OF THE INVENTION IN DETAIL Figure 1 is a somewhat simplified diagram of the block of a known VOIP system that provides only the communication between the subscribers of the same ISP. More specifically, in the system (10), two devices in (12, 14) and the subscribers of the one ISP (16), while the other two devices are the subscribers of (22, 24) and (26) subscribers of an ISP.

The network inputs (16A, 16B) are controlled by ISP (16) and are respectively connected to the devices (12, 14) to the Internet 50. The two ISPs (16, 26) have no knowledge of the network passages of the network. one to the other and they have no means of handling the order of services between their own networks. Therefore, in this configuration the users of the devices (12, 14) can request direct communications from the VOIP / VIP, through the users with each other or through the other subscribers of the ISP (16); still with the subscribers (22, 24) of the ISP (26) can not request some communications. Another voice communication can be established only through the PBX end and / or the POTS (these to be understandable, have not been shown in Figure 1). The devices (12, 14) can be different devices that have the configuration of several types of services, including also audio, video, telex and desktop PC communications, laptops PC and PDA. Figure 2 is a developed system of Figure 1. In this system (10A), the network inputs (16A, 16B) are connected, respectively, to a data storage system (18A, 18B).

Similarly, the network inputs (26A, 26B) are connected to the data servers (28A, 28B). Each data server (18A, 18B, 28A, 28B), ISP (16) and ISP (26) include a standard database that carries out the information required to provide voice communication. In this system (10A), a subscriber using the device (12) requests voice communication with a user associated with the ISP (26). In response to the request, the IP network entry 16A arrives at the server information (18A). On the server, each user's phone number is mapped and located with an appropriate phone number. The necessary communication information afterwards with this user is transmitted again to the network entry (16). The network input (16A) then comes into contact with the network input (26A) and with the appropriate protocol, establishes a voice communication link that is used for calls from ISP subscribers (22) or (24) (26); others also to be able to make calls to subscribers (12, 14) and to other subscribers who use similar operations. The probable problems that can be found is to investigate each server (18A, 18B, 28A, 28B) for all the phones that receive calls. Of course, the system can work only if all the subscribers are placed like this, their information being stored in the servers. Since, potentially, almost hundreds of million subscribers could have access to the system, the time required to access the server and have the correct information will be of a long period of time. Fig. 3 demonstrates a new system (60) its minimum of voice communication. In this system, the servers (18A, 18B, 28A, 28B9 of Fig. 2, are replaced by a central directory 20. In this arrangement, the directory (20) is accessible by any ISP through a distributed communication network. such as the Internet, a private LAN of the WAN /) Local Area Network / Wide Area Network) or a combination of those mentioned. Alternatively, a directory can be provided for each ISP, in a manner similar to that shown in Fig. 2. This latter configuration may be less efficient because the individual entries for the various ISPs will be more difficult to update. The new central directory 20 is used to store the information in a very specific way. This information is provided to allow each of the ISP to establish early voice / visual communication (video) with the other ISP AND with itself. Importantly, these are the ISPs that provide this seamless connection to the users of the devices 12, 14, 22, 24. The ISPs perform this function in a similar way regardless of the nature and structure of the devices 12, 14, 22 , 24. The present invention makes use of the fact of each communication device (eg land-based telephones, portable telephones, fax machines and computer accessories) are associated or assigned with a unique number. As illustrated by the table in Fig. 4, in North America all telephone numbers have ten digits (including the area code). Therefore, for North America, the data bank is provided, at least theoretically with 10 addresses arranged in an increasing order. For the other countries, the data bank is established using the local structure of the telephone numbers. More detailed information will be posted immediately. According to the indications of fig. 4, the central directory includes three tables A, B, C. Table C is the main conversion table and exemplifies the entry of the North American telephone system. The 10-digit telephone number is used as the identifier for each unique block of the entry or data in table A. Conventionally, these entries or blocks of data are referred to as a register, words or cells of a table. This table A is preferably executed as registers / words / RELATIVE cells in a RANDOM ACCESS TABLE (RRAT) where they are stored as a file analyzed internally by an account of the specific word, cell or a record. Typically, each word, register or cell is 4 bytes. This type of table is very fast, having the said nature of its structure. More specifically, it is said that each entry in the directory is a record, a word or a cell that has a unique local address that is used to access the respective entry. According to the present invention, the unique local address is the respective 10-digit telephone number of the connection or device mentioned above. The number is used in its original sequence or in another sequence. For example, some of the numbers can be inverted (eg 212-555-1234 or 43221555212) to distribute more uniform entries in the table. In the preferred formation, Table A consists of a single entry regarding informative data such as register / word / cell.

Each ISP is assigned one or more numbers from the entry. For example, according to the indications in table A, the numbers of the entry can be 1001, 2005, 3017 etc. For having more clarity, the entries are shown vertically adjacent to each other, in actuality but they are not adjacent because there are many interposed entries. Table B is the conversion table of the entry of the ISP and is used to be related to each entry number, with the current IP address or with the SIP URL of each of the entries. For example, the entry number 2005 of the ISP has the IP address 102.111.222.221. Since each ISP is providing Internet access to a large number of devices (ranging from several thousands to several million), the number of numbers in the ISP entry and, therefore, the number of entry in the Table B is much smaller than the entry number in table A. Table B is also constructed with RELATIVE data as records / words / cells in a RANDOM ACCESS TABLE (PRAT). The registration numbers in this table define the number of the PSI entry. The data set for each entry of the ISP that primarily celebrates the IP address entry, another alternative IP address and / or an entry of the SIP URL. The data set for each entry may consist of additional information, such as the name of the ISP, the designation of the protocol necessary for communication and any additional information required by the specific entry. Table C is an optional table, part of a large database for the purpose of additional information on possession of telephone numbers (eg type device (device type), radiotelegraphy (Vireless), VOIP telephone, VIP device, PDA , computer etc., language, protocol, device capabilities etc.) Table C can include several columns that relate different parameters. While an important function of the system, described further, is that, voice communication can be used to exchange other types of signals as well, including text (AIM messages and the like), voice and video clips and several similar types. On the other hand, if the devices are equipped with video cameras, the parties may also be hooked to the conference communication through live video. In addition, the same system can also be used for conference type communication where the parties being on the same line, can communicate talking to each other.

Of course, the data set may also include various other information. The operation of the system 60 is now described in conjunction with the flowchart of Fig. 5 and the tables of Fig. 4. As described above, each device that is capable of providing a voice communication channel over the Internet is signaled by a number of unique telephone. For example, the device 12 can be signaled by telephone number 212-999-8000. The Internet connection for the device 12 is supplied by the ISP 16A. The mentioned ISP is designated in the central directory 20 as ISP 2005 (of course, the ISP entry designations are arbitrary and 2005 is only used for illustrative purposes). Fig. 4 lists other addresses of the central directory with the designation of the respective ISP. For example, the address and telephone number 213-342-7623 is maintained by ISP 16 B; the number 317-733-4567 is maintained by ISP 18; the number 657-232-4329 is maintained by ISP 18B and so on. Each ISP offers Internet service to various devices. With the said example, the device 24 is assigned by the telephone number 657-232-4329 and therefore, the identification of the ISP 18B is indicated as 3017. Going to the point 100 (Fig. 5), a user activates the device 12 and asks for a voice connection to another device 24, typing the telephone number designated 657-232-4329. In that step of 102, the ISP 16A receives the requested voice channel from the device 12. As for step 104, the ISP 16 A sends a request to the central directory 20 for the ISP of the requested device 24. In step 106 , the directory 20 receives the request and uses the telephone number of the device 24 as an address of its data bank, which are presented in Fig. 4, of table A. The ISP entry number for ISP 18 B is5056. In step 107, if the entry of the telephone number asked in table A does not have any corresponding number with respect to said entry, the directory returns a requesting message to the ISP, with the indication that it must proceed on the PSTN where the question comes finished Otherwise, the central directory searches for the address of the ISP with respect to entry 5056 of the ISP in table B. In step 108, directory 20 returns to the address of the ISP entry. Optionally, central directory 20 also returns any additional information from table B, such as from the alternative IP address. In step 110, the ISP 16A after having used the information obtained from the central directory 20, generates an appropriate handle of the connection. (The connection handle is the identifier used between the ISPs to put calls in. You can include the IP number and the original address etc ...). Then the ISP 16A sends a message to the ISP 18 B, including the handle of the connection and the demands on the freedom of the voice channel with respect to the device 24. In step 112, the ISP 18 B responds to the ISP 16A confirming the maintenance of the device 24. The ISP 18B supplies the information to the ISP 16 A also saying that the device 24 is currently online and is available for a conversation. As for, in step 114, the ISP 16A and / or the ISP 18B also determine which protocol is used by the ISP 18B and in addition the device 24 and the protocol conversion if necessary (unless this information has previously been transmitted). ). This information can be obtained from the central sources of the directory 20 or from other sources. If the protocol conversion is necessary, the necessary parameters of the conversion are obtained in step 116. These parameters are used by ISP 16 A and / or 18 B to translate signals between two devices being conformed with the appropriate protocols. In step 118, the channel of the requested voice is established and consequently with the two devices it is possible to start exchanging voice signals, preferably in a full duplex mode. If the devices 16 and 24 are adapted in that system, in addition to the voice signal, the visual signals of video and other audio signals of several similar channels are added. In order to exchange information. According to the investment arrangement, mentioned above, tables A, B and C are stored in the central directory. In a further arrangement of the invention, tables A, B and C are stored in each of the individual ISP 16A, 16B etc. In Fig. 4, table B is used to store the additional information associated with the various ISP, while table C is used to store the additional information associated with the various individual devices. In another alternative of arrangement, table B is eliminated and in table A, each telephone number is signaled directly in the Internet address (an IP, SIP or other similar address) of the corresponding entry of the ISP or the subscriber .

In the arrangements discussed so far, it is intended that the central directory be used for the supply of the addresses of the ISP of North America. The invention can be extended to cover any other country. According to the data presented in Table A, it is assumed that there is an entry for the country treated / by the ISP present, where the table provides an address for the directorial service of this country. In this case the directory 30 or an alternative sends the address of the main international entrance of the networks of the United Kingdom (UK). In this invention it is stated that numerous modifications can be made without going outside the subject only as defined in the added demands.

Claims (9)

CLAIMS:

1. In a system in which a plurality of devices is connected to the Internet by a respective ISP, a method of provision for communication between two devices on the Internet, consists of: Request by a first device to a first entry for a channel of communication for a second device: sending an order to the directory according to the address of the second entry maintained by the second device, where said request must contain the telephone number of the second device; use the said telephone number by the directory to determine the address of the second entry, send back the said address being requested the first entry with the facilitation of the communication channel between the said first and second arrivals by road Internet using the aforementioned address .

2. The demand method that asks for a communications channel is a voice channel.

3. The demand 1 method that calls for a communications channel, supports voice signals and multimedia signals.

4. The method of claim 1, which requests said first and second devices, uses a different address for Internet communication, providing conversions between said addresses.

5. The method of claim 1 being the central directory that includes a table with the entries arranged by the registration number, where each registration number is the identical number or inverted number of a telephone number of the device and of each entry that identifies the address of the second entry.

6. A system that provides substantially instantaneous communication between a plurality of devices over a distribution network, where for each device a multi-digit telephone number is assigned and accordingly said system contains: a plurality of ISP entries, where each input of the ISP that is assigned with a unique identification and a directory that correlates each device with the respective entry of the ISP, of which the said directory includes a database with a plurality of entries that each entry is formed by one of the said unique identification and that is defined by a registration number that is related to a corresponding multi-digit phone number.

7. The demand system 6 that connects to the directory through the network network, each entry of the ISP, reaches the directory via the Internet or through the private network.

8. The system of demand 6 being the directory that includes the relative additional information, it is connected at least with one of each mentioned device and each of the ISP.

9. The demand system 8 requesting additional information includes a protocol used by the respective entry of the ISP to access the network network.